Pseudo-random sequences (PRS) are used for measuring bit error structures in digital transmission paths, into which sequences labels in the form of test error sequences are inserted at a defined site in the pattern. Often it is not possible to mark the measured data at the sender's end, if, for example, the PRS measuring devices do not allow a label fade-in at the sender's end in end-to-end measurements in international data exchange. The invention provides a means for subsequently providing PRS labels. In a method for measuring bit error structures of a digital transmission channel of a digital transmission link, a marking of transmitted quasirandom sequences takes place at the receiving end. The marker is switched on at the receiver's end before a bit-by-bit comparator and the quasirandom sequence marking is synchronized with the quasirandom sequence signal received from the sender's end. The marking at the receiver's end is adapted to a known marking at the sender's end with respect to the site in the pattern, frequency and number of clock periods. The quasirandom sequence marking may be used to assign slips and systematically occurring bit errors in the transmission path to certain devices. To-the-bit determination of cell losses is ATM measurements is possible.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for bit error structure measurements of a data transmission channel of a data transmission link, the method comprising: transmitting a quasirandom sequence from a transmitting end over the transmission link to a receiving end, the quasirandom sequence serving as a measuring signal; and marking the transmitted quasirandom sequence at the receiving end upstream of a bit-for-bit comparator so as to form bit inversions at defined sample points, the marking being synchronized with the transmitted quasirandom sequence at the receiving end.
2. The method as recited in claim 1 wherein the marking is adapted to a transmitting-end marking.
3. The method as recited in claim 2 wherein the marking is adapted with respect to at least one of a defined sample point, a mark frequency and a number of clock pulse periods.
4. The method as recited in claim 3 wherein the marking is adapted with respect to a number of clock pulse periods, the number of clock periods exceeding a number of stages of the quasirandom sequence so as to differentiate line bit errors.
5. The method as recited in claim 1 wherein the marking is designed for quasirandom sequences conforming to an International Telecommunications Union standard.
6. The method as recited in claim 1 wherein the marking is performed using a module integrated in a data measuring device.
7. A system for bit error structure measurements of a data transmission channel of a data transmission link, the system comprising: a transmitter for transmitting a quasirandom sequence from a transmitting end over the transmission link to a receiving end, the quasirandom sequence serving as a measuring signal; and a marker for marking the transmitted quasirandom sequence at the receiving end upstream of a bit-for-bit comparator so as to form bit inversions at defined sample points, the marking being synchronized with the transmitted quasirandom sequence at the receiving end.
8. The system as recited in claim 7 wherein the marking is adapted to a transmitting-end marking.
9. The system as recited in claim 8 wherein the marking is adapted with respect to at least one of a defined sample point, a mark frequency and a number of clock pulse periods.
10. The system as recited in claim 9 wherein the marking is adapted with respect to a number of clock pulse periods, the number of clock periods exceeding a number of stages of the quasirandom sequence so as to differentiate line bit errors.
11. The system as recited in claim 7 wherein the marking is designed for quasirandom sequences conforming to an International Telecommunications Union standard.
12. The system as recited in claim 7 wherein the marker includes a module integrated in a data measuring device.
13. A method for bit error structure measurements of a data transmission channel of a data transmission link, the method comprising: transmitting a quasirandom sequence from a transmitting end over the transmission link to a receiving end, the quasirandom sequence serving as a measuring signal; and marking the transmitted quasirandom sequence at the receiving end upstream of a bit-for-bit comparator so as to form bit inversions at defined sample points, the marking being synchronized with the transmitted quasirandom sequence at the receiving end, wherein the marking is capable of being switched off when a transmitting-end marking is available.
14. A system for bit error structure measurements of a data transmission channel of a data transmission link, the system comprising: a transmitter for transmitting a quasirandom sequence from a transmitting end over the transmission link to a receiving end, the quasirandom sequence serving as a measuring signal; and a marker for marking the transmitted quasirandom sequence at the receiving end upstream of a bit-for-bit comparator so as to form bit inversions at defined sample points, the marking being synchronized with the transmitted quasirandom sequence at the receiving end, wherein the marking is capable of being switched off when a transmitting-end marking is available.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
August 17, 2000
November 18, 2003
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